Simulation of lung tissue properties in age and irreversible obstructive syndromes using an aldehyde.

Abstract

Weak solutions of CHOH alter tissue properties, probably by forming intermolecular cross-linkages. The maximum length (Lmax) to which alveolar wall can be extended is reduced. If exposed to CHOH while extended, the resting length (LO) of alveolar wall increases. Maximum extensibility (Lambdamax equal to Lmax/LO) decreases. Similar changes are found in the alveolar wall of man with aging and are significantly more marked in patients with irreversible obstructive pulmonary syndromes. A reduction in the energy loss of the length-tension cycle (hysteresis) was seen after exposure to CHOH, however, that does not occur with age or in obstructive syndromes. Because an exposure of alveolar wall to elastase increases LO and hysteresis, we used a staged exposure to CHOH followed by elastase. Tissue suitably prepared by exposure to CHOH followed by elastolysis better simulates the tissue changes of age and irreversible obstructive syndromes.